Abstract
Background
Mandible subcondylar fractures may be treated via a traditional visible access incision; however, with the advances in surgical endoscopy surgeons are transitioning to a minimally invasive approach in an effort to reduce surgical morbidity and external facial scarring. We sought to design a clinically applicable teaching tool in a large animal model that would allow the operator to gain experience treating mandible subcondylar fractures via an endoscopic approach.
Methods
A large animal model was developed using the Churra sheep. Subcondylar fractures were created, reduced, and internally plated in ten specimens via an extraoral, two-port endoscopic approach. Animals were monitored for surgical success during the intraoperative and immediate postoperative periods.
Results
Mandibles were reduced and fixated successfully in each of the animals. Operative time was reduced from 70 to 40 min as the surgeons became more familiar with the surgical procedure. Each of the ten Churra sheep used in the study tolerated the surgeries without postoperative complications.
Conclusions
Capitalizing on a mandibular anatomy similar to humans, the Churra sheep successfully demonstrated utility for the extraoral, endoscopic approach in treating mandibular condyle fractures. This model offers surgeons the opportunity to gain surgical endoscopic experience before treating clinical patients.
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Disclosures
Drs. López-Cedrún, Ewart, Luaces-Rey, Arenaz-Búa, Patiño-Seijas, Centeno, López, and Rodriguez have no conflict of interest or financial ties to disclose.
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López-Cedrún, J.L., Ewart, Z., Luaces-Rey, R. et al. A sheep model for endoscopic treatment of mandible subcondylar fractures. Surg Endosc 26, 2644–2650 (2012). https://doi.org/10.1007/s00464-012-2248-x
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DOI: https://doi.org/10.1007/s00464-012-2248-x